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Literature summary extracted from

  • Forootanfar, H.; Faramarzi, M.A.
    Insights into laccase producing organisms, fermentation states, purification strategies, and biotechnological applications (2016), Biotechnol. Prog., 31, 1443-1463 .
    View publication on PubMed

Molecular Weight [Da]

EC Number Molecular Weight [Da] Molecular Weight Maximum [Da] Comment Organism
1.10.3.2 43700
-
-
 Pleurotus ostreatus
1.10.3.2 65000
-
-
 Bacillus licheniformis
1.10.3.2 65000
-
-
 Bacillus amyloliquefaciens
1.10.3.2 66000
-
-
 Bacillus spp.
1.10.3.2 67000
-
-
 Lentinula edodes
1.10.3.2 72000
-
-
 Pseudomonas syringae
1.10.3.2 74000
-
-
 Botrytis cinerea
1.10.3.2 75000
-
-
 Cryptococcus neoformans
1.10.3.2 75000
-
-
 Streptomyces cyaneus
1.10.3.2 77000
-
-
 Thermochaetoides thermophila
1.10.3.2 85000
-
-
 Nephotettix cincticeps
1.10.3.2 85000
-
-
 Thermothelomyces thermophilus
1.10.3.2 90000
-
-
 Populus x canadensis
1.10.3.2 97000
-
-
 Acer pseudoplatanus
1.10.3.2 114000
-
-
 Streptomyces griseus
1.10.3.2 120000
-
-
 Toxicodendron vernicifluum
1.10.3.2 130000
-
-
 Toxicodendron succedaneum
1.10.3.2 165000
-
-
 Bombyx mori
1.10.3.2 165000
-
-
 Peltigera aphthosa
1.10.3.2 175000
-
-
 Solorina crocea

Organism

EC Number Organism UniProt Comment Textmining
1.10.3.2 Acer pseudoplatanus Q38757
-
-
1.10.3.2 Bacillus amyloliquefaciens
-
-
-
1.10.3.2 Bacillus licheniformis
-
-
-
1.10.3.2 Bacillus spp.
-
-
-
1.10.3.2 Bombyx mori
-
-
-
1.10.3.2 Botrytis cinerea
-
-
-
1.10.3.2 Cryptococcus neoformans
-
-
-
1.10.3.2 Lentinula edodes
-
-
-
1.10.3.2 Nephotettix cincticeps
-
-
-
1.10.3.2 Nysius plebeius
-
-
-
1.10.3.2 Peltigera aphthosa
-
-
-
1.10.3.2 Pleurotus ostreatus
-
-
-
1.10.3.2 Populus x canadensis
-
-
-
1.10.3.2 Pseudomonas syringae
-
-
-
1.10.3.2 Riptortus pedestris
-
-
-
1.10.3.2 Solorina crocea
-
-
-
1.10.3.2 Streptomyces cyaneus
-
-
-
1.10.3.2 Streptomyces griseus
-
-
-
1.10.3.2 Thermochaetoides thermophila
-
-
-
1.10.3.2 Thermothelomyces thermophilus
-
-
-
1.10.3.2 Toxicodendron succedaneum
-
-
-
1.10.3.2 Toxicodendron vernicifluum
-
-
-

pI Value

EC Number Organism Comment pI Value Maximum pI Value
1.10.3.2 Pleurotus ostreatus
-
-
 2.3
1.10.3.2 Botrytis cinerea
-
-
 4
1.10.3.2 Nephotettix cincticeps
-
-
 4.8
1.10.3.2 Thermochaetoides thermophila
-
-
 5.1
1.10.3.2 Streptomyces griseus
-
-
 5.6
1.10.3.2 Streptomyces cyaneus
-
-
 5.6
1.10.3.2 Bacillus licheniformis
-
-
 7
1.10.3.2 Toxicodendron vernicifluum
-
-
 8.6
1.10.3.2 Populus x canadensis
-
-
 9

General Information

EC Number General Information Comment Organism
1.10.3.2 physiological function the enzyme is involved in cuticle sclerotization Bombyx mori
1.10.3.2 physiological function breakdown of lignin biopolymers Thermochaetoides thermophila
1.10.3.2 physiological function breakdown of lignin biopolymers Thermothelomyces thermophilus
1.10.3.2 physiological function supplying free radical form of monolignol units, such as q-coumaryl, sinapyl, and coniferyl alcohols for production of lignins Toxicodendron vernicifluum
1.10.3.2 physiological function survival of the fungal hyphomycete in the presence of the toxic compounds produced by host plants Botrytis cinerea
1.10.3.2 physiological function the enzyme is involcved in the development and morphogenesis of fungi Pleurotus ostreatus
1.10.3.2 physiological function the enzyme is involved in copper resistance Pseudomonas syringae
1.10.3.2 physiological function the enzyme is involved in cuticle maturation Nysius plebeius
1.10.3.2 physiological function the enzyme is involved in defense against the toxic compounds produced by host plantscuticle maturation Nephotettix cincticeps
1.10.3.2 physiological function the enzyme is involved in melanin synthesis Bacillus licheniformis
1.10.3.2 physiological function the enzyme is involved in melanin synthesis Lentinula edodes
1.10.3.2 physiological function the enzyme is involved in metabolism of solorinin and solorinic acid (responsible for the orange color of the thallus) Solorina crocea
1.10.3.2 physiological function the enzyme is involved in metabolism of solorinin and solorinic acid (responsible for the orange color of the thallus) Peltigera aphthosa
1.10.3.2 physiological function the enzyme is involved in oxidation of cuticular catechols for cuticle hardening and pigmentation Riptortus pedestris
1.10.3.2 physiological function the enzyme is involved in pigmentation Streptomyces griseus
1.10.3.2 physiological function the enzyme is involved in solubilization and mineralization of lignin Streptomyces cyaneus
1.10.3.2 physiological function the enzyme is involved in the production of brownish spore pigment Bacillus amyloliquefaciens
1.10.3.2 physiological function the enzyme is involved in UV-resistance Bacillus spp.
1.10.3.2 physiological function virulence of the yeast via the synthesis of a eumelanin biopolymer Cryptococcus neoformans